Recently, under the leadership of Academician Dapeng Yu, Researcher Yuan Xu and Researcher Song Liu from the Shenzhen International Quantum Academy (IQASZ), in collaboration with Professor Jing Shu from the Peking University (PKU), have achieved significant experimental progress in the search for da

Recently, the research team led by Associate Researchers Yao Lu and Junhua Zhang at Shenzhen International Quantum Academy has made notable progress in the field of trapped-ion quantum computing. The team successfully constructed the first trapped-ion quantum processor based on structured light addr

Focusing on dispersive readout in a squeezed environment, the team developed a new statistical analysis framework that enables a more complete description of how measurement signals evolve as they accumulate over time, and directly links these statistical features to measurement precision.

IQASZ implemented "full-stack" logical operations—from universal logical gates to quantum algorithm demonstrations—on a silicon-based quantum processor, which is a prototype of the logical quantum computer in silicon.

Recently, Dr. Jilei Chen’s team at the Shenzhen International Quantum Academy, published a review titled “Magnon Confinement and Trapping at the Nanoscale” in the physics review journal Physics Reports (IF = 29.5).

Recently, a team led by Researcher Youpeng Zhong and Academician Dapeng Yu at the Shenzhen International Quantum Academy achieved a major breakthrough in superconducting quantum computation by realizing logical multi-qubit entanglement based on dual-rail encoding for the first time.